protected void receiveTunnelInbound(DHTTransportUDPContact originator, Map data) { log("Received tunnel inbound message from " + originator.getString()); try { punch_mon.enter(); for (int i = 0; i < oustanding_punches.size(); i++) { Object[] wait_data = (Object[]) oustanding_punches.get(i); DHTTransportContact wait_contact = (DHTTransportContact) wait_data[0]; if (originator.getAddress().getAddress().equals(wait_contact.getAddress().getAddress())) { wait_data[2] = new Integer(originator.getTransportAddress().getPort()); ((AESemaphore) wait_data[1]).release(); } } } finally { punch_mon.exit(); } }
protected Map sendPunch( DHTTransportContact rendezvous, final DHTTransportUDPContact target, Map originator_client_data, boolean no_tunnel) { AESemaphore wait_sem = new AESemaphore("DHTNatPuncher::sendPunch"); Object[] wait_data = new Object[] {target, wait_sem, new Integer(0)}; try { try { punch_mon.enter(); oustanding_punches.add(wait_data); } finally { punch_mon.exit(); } Map request = new HashMap(); request.put("type", new Long(RT_PUNCH_REQUEST)); request.put("target", target.getAddress().toString().getBytes()); if (originator_client_data != null) { if (no_tunnel) { originator_client_data.put("_notunnel", new Long(1)); } request.put("client_data", originator_client_data); } // for a message payload (i.e. no_tunnel) we double the initiator timeout to give // more chance for reasonable size messages to get through as they have to go through // 2 xfer processes Map response = sendRequest(rendezvous, request, no_tunnel ? TRANSFER_TIMEOUT * 2 : TRANSFER_TIMEOUT); if (response == null) { return (null); } if (((Long) response.get("type")).intValue() == RT_PUNCH_REPLY) { int result = ((Long) response.get("ok")).intValue(); trace( "received " + (no_tunnel ? "message" : "punch") + " reply: " + (result == 0 ? "failed" : "ok")); if (result == 1) { // pick up port changes from the rendezvous Long indirect_port = (Long) response.get("port"); if (indirect_port != null) { int transport_port = indirect_port.intValue(); if (transport_port != 0) { InetSocketAddress existing_address = target.getTransportAddress(); if (transport_port != existing_address.getPort()) { target.setTransportAddress( new InetSocketAddress(existing_address.getAddress(), transport_port)); } } } if (!no_tunnel) { // ping the target a few times to try and establish a tunnel UTTimerEvent event = timer.addPeriodicEvent( 3000, new UTTimerEventPerformer() { private int pings = 1; public void perform(UTTimerEvent event) { if (pings > 3) { event.cancel(); return; } pings++; if (sendTunnelOutbound(target)) { event.cancel(); } } }); if (sendTunnelOutbound(target)) { event.cancel(); } // give the other end a few seconds to kick off some tunnel events to us if (wait_sem.reserve(10000)) { event.cancel(); } } // routers often fiddle with the port when not mapped so we need to grab the right one to // use // for direct communication // first priority goes to direct tunnel messages received int transport_port = 0; try { punch_mon.enter(); transport_port = ((Integer) wait_data[2]).intValue(); } finally { punch_mon.exit(); } if (transport_port != 0) { InetSocketAddress existing_address = target.getTransportAddress(); if (transport_port != existing_address.getPort()) { target.setTransportAddress( new InetSocketAddress(existing_address.getAddress(), transport_port)); } } Map target_client_data = (Map) response.get("client_data"); if (target_client_data == null) { target_client_data = new HashMap(); } return (target_client_data); } } return (null); } catch (Throwable e) { log(e); return (null); } finally { try { punch_mon.enter(); oustanding_punches.remove(wait_data); } finally { punch_mon.exit(); } } }